CN116823237B - Circulation packing management system - Google Patents

Abstract

The invention discloses a circulating package management system, relates to the technical field of circulating package boxes, and aims to solve the problem of imperfect management of the circulating package boxes during transportation. According to the invention, the storage area of the circulating packing box body data is selected and the residual capacity space of the storage area is acquired through the acquired data storage module, so that the safety of the circulating packing box body data during storage is improved, the distance between the order destination and the sending sub-warehouse is acquired according to the sending expense calculation module, the transportation expense is calculated according to the model of the transportation vehicle after the acquisition, the expense of the circulating packing box body is acquired, the transportation expense and the expense of the circulating packing box body are calculated through the algorithm simulation database, the accuracy of calculating the overall expense can be improved, the marked curve and the standard curve are overlapped according to the data integration display module, unqualified data can be more intuitively detected, and error correction processing is conveniently carried out on the unqualified data in time.

Description

Circulation packing management system

Technical Field

The invention relates to the technical field of circulating packaging boxes, in particular to a circulating packaging management system.

Background

The circulating packing box is a logistics packing box container which can be recycled for secondary use.

The Chinese patent with publication number of CN113379078A discloses a recycling method and an information system of circulating packing box objects, which can efficiently use the circulating packing box objects, rapidly process service data and scientifically manage the circulating packing box objects on the basis of optimized service flow; compared with the circulating packing box object in the manual operation state, the recycling method and the information system not only improve the use efficiency of the circulating packing box object, but also improve the satisfaction of users and users in the modes of pushing goods packing box pictures to the users by the system, sending circulating packing box use rewards to the users of the system and the like, and the recycling method of the circulating packing box object is solved, but also has the following problems in the recycling and transportation management flow:

1. after the circulating packing box body acquires data, the data is not further classified and stored, so that the safety of the data is reduced, and the data is lost.

2. When the order is received, the optimal sub-warehouse is not selected according to the dispatch destination of the order, so that the dispatch cost is increased, and the distance between the destination and the dispatch sub-warehouse is not effectively calculated, so that the transportation cost calculation is inaccurate.

3. Finer table processing is not performed, so that a visual table is unclear, and the recognition degree of curve labeling analysis of the table is poor, so that the examination is inconvenient when the staff manages.

Disclosure of Invention

The invention aims to provide a circulating package management system, which is characterized in that a data collection storage module is used for selecting a storage area of circulating package body data and acquiring the residual capacity space of the storage area, so that the safety of the circulating package body data in storage is improved, the distance between an order destination and a dispatching sub-warehouse is acquired according to a dispatching expense calculation module, the transportation expense is calculated according to the model of a transportation vehicle after the acquisition, the expense of the circulating package body is acquired, the transportation expense and the expense of the circulating package body are calculated through an algorithm simulation database, the accuracy of calculating the overall expense can be improved, the marked curve and the standard curve are overlapped according to a data integration display module, unqualified data can be more intuitively detected, and the unqualified data can be corrected conveniently and timely, so that the problem in the prior art can be solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a recycling package management system, comprising:

the packaging box body data acquisition unit is used for:

acquiring basic information of the packaging box body, and classifying and storing types according to the basic information, wherein the basic information of the packaging box body comprises the weight, the volume and the model of the packaging box body; the method comprises the steps of carrying out a first treatment on the surface of the

A central database data statistics unit for:

based on the basic information of the packaging box body acquired by the packaging box body data acquisition unit, transmitting the basic information to a central library of the terminal, classifying and managing the basic information data in the central library, and storing the classified data;

an online packing box order data acquisition unit for:

based on the classified basic information obtained in the central library data statistics unit, the order information is firstly obtained, the sorting library is selected according to the destination address finally dispatched in the order information after the order information is obtained, and the dispatching cost is subjected to numerical calculation;

the method comprises the steps of selecting a sub-library, judging according to the distance between a final destination address of an order and the sub-library, and selecting the sub-library with the closest destination to the sub-library;

A separate-warehouse order dispatch unit for:

based on the order information acquired by the on-line packing box order data acquisition unit, dispatching the packing box body according to the packing box body of the order information and dispatching requirements;

meanwhile, when the packaging box body is dispatched, dispatch tracking is performed in real time, data are managed according to the record of the dispatch tracking, and finally the managed data are displayed in a form of a table.

Preferably, the package box body data acquisition unit includes:

the basic data acquisition module is used for:

recording basic data of different circulating packing box bodies, wherein the basic data comprise the weight, the volume and the model of the circulating packing box bodies;

the application scope classification module is used for:

based on the basic data of the circulating packing box body acquired in the basic data acquisition module, attribution classification is carried out according to the application range corresponding to the basic data of each circulating packing box body, and when the same circulating packing box body can be applied to a plurality of application ranges, the circulating packing box body applicable to each application range data is available;

a class of memory modules for:

based on the application scope of the circulating packing box body obtained in the application scope classification module, the circulating packing box bodies with different application scopes are stored independently.

Preferably, the central repository data statistics unit includes:

the central library acquisition module is used for:

based on the basic information data of different circulating packing box bodies in the packing box body data acquisition unit, acquiring the basic information data of different circulating packing box bodies;

the collected data classification module is used for:

based on the basic data acquired from the central library acquisition module, the basic data of different categories are screened and marked as category data to be stored;

the acquisition data storage module is used for:

acquiring a storage area corresponding to the category data to be stored based on the category data to be stored acquired by the acquired data classification module;

and confirming the capacity spaces in different storage areas according to the acquired storage areas, wherein the capacity spaces of the storage areas are the residual capacity spaces in the storage areas, and automatically selecting the storage areas of the corresponding residual capacity spaces according to the capacity of the category data to be stored.

Preferably, the central repository data statistics unit further includes:

the time interval setting module is used for setting a data transmission time interval for transmitting the basic information to a central library of the terminal;

the data transmission quality evaluation module is used for monitoring the data transmission quality of each data transmission time interval in real time and acquiring the comprehensive parameters of the data transmission quality; the data transmission quality comprehensive parameters are obtained through the following formula:

Wherein,representing the data transmission quality comprehensive parameters; />Indicating the number of time intervals that have elapsed; />Representing the number of data transmissions completed in each time interval; />Indicate->First->The transmission time length used for transmitting the data; />Representing a theoretical delay upper limit value allowed by transmission; />Indicate->Average transmission duration for completing data transmission in each time interval; />Representing a preset reference parameter value;

the comparison module is used for comparing the data transmission quality comprehensive parameter with a preset comprehensive parameter threshold value to obtain a comparison result;

and the channel evaluation and replacement execution module is used for evaluating and replacing the communication channel for currently executing data transmission when the comparison result shows that the data transmission quality comprehensive parameter is lower than a preset comprehensive parameter threshold value.

Preferably, the channel estimation and replacement execution module includes:

the operation parameter acquisition module is used for scanning each communication channel for currently executing data transmission operation to acquire the operation parameter of each communication channel when the data transmission quality comprehensive parameter is lower than a preset comprehensive parameter threshold;

the first comparison and replacement module is used for carrying out operation quality evaluation on the corresponding communication channels according to the operation parameters of the communication channels to obtain operation quality evaluation parameters corresponding to each channel; comparing the operation quality evaluation parameter with a preset operation quality evaluation parameter threshold, and replacing a communication channel of which the operation quality evaluation parameter is lower than the preset operation quality evaluation parameter threshold;

The threshold adjustment module is used for adjusting the operation quality evaluation parameter threshold according to the data transmission quality comprehensive parameter to obtain an adjusted parameter threshold when the operation quality evaluation parameter is not lower than the preset operation quality evaluation parameter threshold; the adjusted parameter threshold value is obtained through the following formula:

wherein,representing the adjusted parameter threshold; />Representing a preset operation quality evaluation parameter threshold;

and the second comparison and replacement module is used for comparing the operation quality evaluation parameter with a preset adjusted parameter threshold value and replacing a communication channel of which the operation quality evaluation parameter is lower than the adjusted parameter threshold value.

Preferably, the central repository data statistics unit further includes:

a stored data setting module for:

based on the storage completion waiting for storing the category data acquired in the acquisition data storage module, the copy number and the storage perception strategy when the waiting for storing the category data are acquired, wherein the storage perception strategy comprises determining data nodes of a classified data storage area;

a stored data execution module for:

based on the number of the copies of the class data to be stored and the storage perception policy obtained by the storage data setting module, the class data to be stored and the number of the copies are stored in the target storage area, and the operation behavior data of the class data to be stored and the storage information of the number of the copies are recorded.

Preferably, the online packing box order data acquisition unit includes:

an order data processing module for:

according to the order placed by the customer on the online terminal, processing destination information in order data and information of the circulating packing box body;

the library separation selection module is used for:

selecting a nearest database separating area from the destination information based on the destination information acquired from the order data processing module;

if the nearest sub-warehouse does not have the circulating packing box body in the order data, selecting the address distance of the sub-warehouse area for the second nearest;

an invalid data eliminating module, configured to:

marking data which are not adopted in the data as invalid data based on the data acquired in the database selection module and the order data processing module, and eliminating the invalid data;

an order data processing module comprising:

and the destination data acquisition module is used for acquiring the area range of the destination according to the order information, carrying out area confirmation on the destination area data after acquisition, and confirming the area as target area data.

Preferably, the library selection module includes:

a dispatch fee calculation module for:

based on the target area data acquired from the order data processing module, carrying out data correspondence on the target area data and the selected sub-library area data, and confirming a distance interval between the target area data and the selected sub-library area data after the correspondence is completed;

According to the confirmed distance interval, performing simulation calculation on the distance interval through an algorithm simulation database;

the algorithm simulation database is mainly used for carrying out the transportation cost of the circulating packing box body according to the actual mileage of the distance interval and the model of the circulating packing box body;

and after calculating the transportation cost according to the algorithm simulation data, calculating the transportation cost and the use cost of the circulating packing box body, and obtaining the cost of the whole after the calculation is completed.

Preferably, the separate-warehouse order dispatching unit includes:

the positioning data acquisition module is used for:

according to the locators placed on the turnover boxes or the trays in the transport vehicle, when the transport vehicle transports the circulating packing box body, planning and recording the route of the transport vehicle according to the real-time records of the locators;

the functions of the locator further comprise audible and visual alarm, temperature and humidity display, id identification and theft prevention, and the locator performs data networking interaction with a mobile display terminal of a transport driver;

the sound-light alarm, temperature and humidity display, id identification and anti-theft function data in the locator can be displayed in the mobile display of a transportation driver;

The tracking record acquisition module is used for:

acquiring the coordinate data and the time data passing by the transport vehicle in real time, and corresponding the acquired coordinate data and time data with a standard data table, and splitting the coordinate data and the time data into a multi-dimensional data table after the corresponding is finished;

extracting specific data in a multi-dimensional data table, wherein the specific data are real-time coordinate values and real-time values in coordinate data and time data;

and the real-time task data table is created according to the specific data extraction, and the real-time task data table is subjected to format conversion and is converted into a visual format.

Preferably, the separate-warehouse order dispatching unit further includes:

the data integration and display module is used for:

based on the real-time task data table acquired by the tracking record acquisition module, displaying the data value of the real-time task data table in a two-dimensional coordinate graph, and marking a curve in the two-dimensional coordinate graph according to the data change trend of the data value;

overlapping the marked curve with the standard curve, and transmitting the data value to a mobile terminal of a transportation driver for display through a positioner when the overlapping area of the marked curve and the standard curve is not in a qualified range;

The method comprises the steps that a labeling curve and a standard curve are overlapped to data values in a qualified range to carry out multi-target position configuration, and each target position corresponds to different position numbers;

and mapping different numbers corresponding to different target positions, and storing the data according to the mapping result.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention provides a circulating package management system, which carries out more detailed data recording on circulating package body data through a package body data acquisition unit, carries out category discrimination on the acquired circulating package body data according to a collected data classification module, ensures the comprehensiveness of the circulating package body data, carries out storage area selection on the circulating package body data through a collected data storage module and acquires the residual capacity space of the storage area, further improves the safety of the circulating package body data during storage, acquires the copy number of the category data to be stored according to a stored data execution module, effectively reduces the risk of data loss and improves the overall reliability.

2. The invention provides a circulating package management system, which effectively selects the area of a sending sub-warehouse through a sub-warehouse selecting module, wherein when the nearest sub-warehouse has no circulating package box body in an order, the sub-warehouse which is the second closest to the destination is automatically selected, so that the intelligent sending is effectively improved, the experience of a customer is greatly improved, the distance between the order destination and the sending sub-warehouse is acquired according to a sending expense computing module, the transportation expense is computed according to the model of a transportation vehicle after the distance is acquired, the expense of the circulating package box body is acquired, and the transportation expense and the expense of the circulating package box body are computed through an algorithm simulation database, so that the accuracy of overall expense computation can be further improved, meanwhile, clear expense statistics is more convenient for later examination of staff, and the convenience of overall expense management is improved.

3. The invention provides a circulating package management system, which is characterized in that coordinate data and time data of a transport vehicle are acquired in real time through a tracking record acquisition module, so that convenience for customers to observe transport information is improved, meanwhile, specific data in a multi-dimensional data table is extracted, a real-time task data table is created after the acquisition, the efficiency and the precision of transport information conversion are further improved, a curve is marked on a data value of the real-time task data table according to a data integration display module, and the marked curve is overlapped with a standard curve, so that unqualified data can be detected more intuitively, error correction processing is conveniently carried out on the unqualified data in time, meanwhile, the recognition degree of the data is improved according to different position numbers of each target position, and the management of the data is facilitated.

Drawings

FIG. 1 is a schematic diagram of an overall management flow of the present invention;

fig. 2 is a schematic diagram of a package body data acquisition unit module according to the present invention;

FIG. 3 is a schematic diagram of a central repository data statistics unit module according to the present invention;

FIG. 4 is a schematic diagram of an on-line package box order data acquisition unit module according to the present invention;

FIG. 5 is a schematic diagram of a separate warehouse order dispatch unit module according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the problem of data loss caused by data security reduction due to the fact that data are not further classified and stored after the data are acquired from the circulating packing box body in the prior art, referring to fig. 1-3, the following technical scheme is provided in this embodiment:

a recycling package management system, comprising: the packaging box body data acquisition unit is used for: acquiring basic information of the packaging box body, and classifying and storing types according to the basic information, wherein the basic information of the packaging box body comprises the weight, the volume and the model of the packaging box body; the method comprises the steps of carrying out a first treatment on the surface of the A central database data statistics unit for: based on the basic information of the packaging box body acquired by the packaging box body data acquisition unit, transmitting the basic information to a central library of the terminal, classifying and managing the basic information data in the central library, and storing the classified data; an online packing box order data acquisition unit for: based on the classified basic information obtained in the central library data statistics unit, the order information is firstly obtained, the sorting library is selected according to the destination address finally dispatched in the order information after the order information is obtained, and the dispatching cost is subjected to numerical calculation; the method comprises the steps of selecting a sub-library, judging according to the distance between a final destination address of an order and the sub-library, and selecting the sub-library with the closest destination to the sub-library; a separate-warehouse order dispatch unit for: based on the order information acquired by the on-line packing box order data acquisition unit, dispatching the packing box body according to the packing box body of the order information and dispatching requirements; meanwhile, when the packaging box body is dispatched, dispatch tracking is performed in real time, data are managed according to the record of the dispatch tracking, and finally the managed data are displayed in a form of a table.

The packing box body data acquisition unit includes: the basic data acquisition module is used for: recording basic data of different circulating packing box bodies, wherein the basic data comprise the weight, the volume and the model of the circulating packing box bodies; the application scope classification module is used for: based on the basic data of the circulating packing box body acquired in the basic data acquisition module, attribution classification is carried out according to the application range corresponding to the basic data of each circulating packing box body, and when the same circulating packing box body can be applied to a plurality of application ranges, the circulating packing box body applicable to each application range data is available; a class of memory modules for: based on the application scope of the circulating packing box body obtained in the application scope classification module, the circulating packing box bodies with different application scopes are stored independently.

A central repository data statistics unit comprising: the central library acquisition module is used for: based on the basic information data of different circulating packing box bodies in the packing box body data acquisition unit, acquiring the basic information data of different circulating packing box bodies; the collected data classification module is used for: based on the basic data acquired from the central library acquisition module, the basic data of different categories are screened and marked as category data to be stored; the acquisition data storage module is used for: acquiring a storage area corresponding to the category data to be stored based on the category data to be stored acquired by the acquired data classification module; according to the obtained storage area, confirming the capacity space in different storage areas, wherein the capacity space of the storage area is the residual capacity space in the storage area, automatically selecting the storage area of the corresponding residual capacity space according to the capacity of the class data to be stored, and the central database data statistics unit further comprises: a stored data setting module for: based on the storage completion waiting for storing the category data acquired in the acquisition data storage module, the copy number and the storage perception strategy when the waiting for storing the category data are acquired, wherein the storage perception strategy comprises determining data nodes of a classified data storage area; a stored data execution module for: based on the number of the copies of the class data to be stored and the storage perception policy obtained by the storage data setting module, the class data to be stored and the number of the copies are stored in the target storage area, and the operation behavior data of the class data to be stored and the storage information of the number of the copies are recorded.

Specifically, the circulating package box body data is subjected to more detailed data recording through the package box body data acquisition unit, the acquired circulating package box body data is subjected to category screening according to the acquired data classification module, the comprehensiveness of the circulating package box body data is ensured, the circulating package box body data is subjected to storage area selection and the residual capacity space of the storage area is acquired through the acquired data storage module, the safety of the circulating package box body data during storage is further improved, the copy number of the category data to be stored is acquired according to the stored data execution module, the risk of data loss is effectively reduced, and the overall reliability is improved.

Specifically, the central repository data statistics unit further includes:

the time interval setting module is used for setting a data transmission time interval for transmitting the basic information to a central library of the terminal;

the data transmission quality evaluation module is used for monitoring the data transmission quality of each data transmission time interval in real time and acquiring the comprehensive parameters of the data transmission quality; the data transmission quality comprehensive parameters are obtained through the following formula:

wherein, Representing the data transmission quality comprehensive parameters; />Indicating the number of time intervals that have elapsed; />Representing the number of data transmissions completed in each time interval; />Indicate->First->The transmission time length used for transmitting the data; />Representing a theoretical delay upper limit value allowed by transmission; />Indicate->Average transmission duration for completing data transmission in each time interval; />Representing a preset reference parameter value;

the comparison module is used for comparing the data transmission quality comprehensive parameter with a preset comprehensive parameter threshold value to obtain a comparison result;

and the channel evaluation and replacement execution module is used for evaluating and replacing the communication channel for currently executing data transmission when the comparison result shows that the data transmission quality comprehensive parameter is lower than a preset comprehensive parameter threshold value.

The technical effects of the technical scheme are as follows: the user is allowed to set a data transmission time interval for transmitting the basic information to the central repository of the terminal. Thus, the frequency of data transmission can be flexibly controlled to meet the practical requirements and resource limitations.

And monitoring the data transmission quality of each data transmission time interval in real time, and acquiring the comprehensive parameters of the data transmission quality. By monitoring the number of times data transmission is completed and the transmission duration in the transmission time interval, the quality and efficiency of data transmission can be evaluated.

And calculating the comprehensive parameters of the data transmission quality according to a given formula. The integrated parameter takes into account the number of time intervals that have elapsed, the number of data transmissions completed in each time interval, the transmission duration, and a preset reference parameter value. Thus, the quality of data transmission can be comprehensively evaluated, and a quantized index is provided.

And comparing the calculated comprehensive parameters of the data transmission quality with a preset threshold value of the comprehensive parameters. By comparing the data transmission quality with a preset threshold value, whether the data transmission quality meets the requirement or not can be judged, and a corresponding comparison result is obtained.

When the data transmission quality integrated parameter is lower than a preset integrated parameter threshold, the module evaluates and replaces the communication channel currently performing data transmission. In this way, transmission problems can be found in time, and corresponding measures, such as replacing communication channels, can be taken to improve the data transmission quality.

In summary, the technical effects of the technical scheme include flexible control of data transmission time interval, real-time evaluation of data transmission quality, calculation of comprehensive evaluation parameters, judgment of whether the data transmission quality meets the requirements, and evaluation and replacement of channels to improve the data transmission efficiency and quality

Specifically, the channel evaluation and replacement execution module includes:

the operation parameter acquisition module is used for scanning each communication channel for currently executing data transmission operation to acquire the operation parameter of each communication channel when the data transmission quality comprehensive parameter is lower than a preset comprehensive parameter threshold;

the first comparison and replacement module is used for carrying out operation quality evaluation on the corresponding communication channels according to the operation parameters of the communication channels to obtain operation quality evaluation parameters corresponding to each channel; comparing the operation quality evaluation parameter with a preset operation quality evaluation parameter threshold, and replacing a communication channel of which the operation quality evaluation parameter is lower than the preset operation quality evaluation parameter threshold;

the threshold adjustment module is used for adjusting the operation quality evaluation parameter threshold according to the data transmission quality comprehensive parameter to obtain an adjusted parameter threshold when the operation quality evaluation parameter is not lower than the preset operation quality evaluation parameter threshold; the adjusted parameter threshold value is obtained through the following formula:

wherein,representing the adjusted parameter threshold; />Representing a preset operation quality evaluation parameter threshold;

And the second comparison and replacement module is used for comparing the operation quality evaluation parameter with a preset adjusted parameter threshold value and replacing a communication channel of which the operation quality evaluation parameter is lower than the adjusted parameter threshold value.

The technical effects of the technical scheme are as follows: when the data transmission quality comprehensive parameter is lower than a preset comprehensive parameter threshold, the module scans each communication channel currently executing data transmission operation and acquires the operation parameter of each communication channel. In this way, the current operating state and performance index of each communication channel can be obtained.

And performing operation quality evaluation on the communication channels according to the operation parameters of the communication channels, and obtaining operation quality evaluation parameters of each channel. And then comparing the operation quality evaluation parameter with a preset operation quality evaluation parameter threshold value, and judging whether the operation quality evaluation parameter is lower than the threshold value. For communication channels below the threshold, a replacement operation is performed, i.e. other available communication channels are selected to replace the original communication channel, to improve the data transmission quality.

When all the operation quality evaluation parameters are not lower than the preset operation quality evaluation parameter threshold, the module adjusts the operation quality evaluation parameter threshold according to the data transmission quality comprehensive parameters to obtain an adjusted parameter threshold. By adjusting the threshold value, the method can flexibly adapt to different data transmission conditions and requirements.

Comparing the operation quality evaluation parameter with a preset adjusted parameter threshold value, and judging whether the operation quality evaluation parameter is lower than the adjusted threshold value. For communication channels below the adjusted threshold, a replacement operation is performed to further improve the data transmission quality.

In summary, the technical effects of the technical scheme include that dynamic channel evaluation and replacement are achieved by acquiring operation parameters, evaluating operation quality, comparing according to a threshold value, and performing replacement operation, so that quality and efficiency of data transmission are improved. The threshold value is monitored and regulated in real time, so that different transmission conditions and requirements can be met, and the stability and reliability of data transmission are ensured.

In order to solve the problem in the prior art that when an order is received, an optimal sub-warehouse is not selected according to a dispatch destination of the order, so that dispatch cost is increased, and a distance between the destination and the dispatch sub-warehouse is not effectively calculated, so that transportation cost calculation is inaccurate, referring to fig. 4, the embodiment provides the following technical scheme:

on-line packing box order data acquisition unit includes: an order data processing module for: according to the order placed by the customer on the online terminal, processing destination information in order data and information of the circulating packing box body; the library separation selection module is used for: selecting a nearest database separating area from the destination information based on the destination information acquired from the order data processing module; if the nearest sub-warehouse does not have the circulating packing box body in the order data, selecting the address distance of the sub-warehouse area for the second nearest; an invalid data eliminating module, configured to: marking data which are not adopted in the data as invalid data based on the data acquired in the database selection module and the order data processing module, and eliminating the invalid data; an order data processing module comprising: the destination data acquisition module is used for acquiring the area range of a destination according to order information, carrying out area confirmation on destination area data after acquisition, and confirming the area as target area data, and the sub-library selection module comprises: a dispatch fee calculation module for: based on the target area data acquired from the order data processing module, carrying out data correspondence on the target area data and the selected sub-library area data, and confirming a distance interval between the target area data and the selected sub-library area data after the correspondence is completed; according to the confirmed distance interval, performing simulation calculation on the distance interval through an algorithm simulation database; the algorithm simulation database is mainly used for carrying out the transportation cost of the circulating packing box body according to the actual mileage of the distance interval and the model of the circulating packing box body; and after calculating the transportation cost according to the algorithm simulation data, calculating the transportation cost and the use cost of the circulating packing box body, and obtaining the cost of the whole after the calculation is completed.

Specifically, the area of the sending sub-warehouse is effectively selected through the sub-warehouse selecting module, wherein when the sub-warehouse closest to the destination does not have the circulating packing box body in the order, the sub-warehouse closest to the destination is automatically selected, the intelligent sending is effectively improved, the experience of a customer is greatly improved, the distance between the order destination and the sending sub-warehouse is acquired according to the sending expense computing module, the transportation expense is computed according to the model of the transportation vehicle after the distance is acquired, the cost of the circulating packing box body is acquired, and the transportation expense and the cost of the circulating packing box body are computed through the algorithm simulation database, so that the accuracy of the overall expense computation can be further improved, meanwhile, clear expense statistics is more convenient for later examination of staff, and the convenience of overall expense management is improved.

In order to solve the problem that in the prior art, when the whole process is subjected to visual conversion, finer table processing is not performed, so that a visual table is unclear, and the recognition degree of curve labeling analysis of the table is poor, so that the inspection is inconvenient when staff manages, referring to fig. 5, the embodiment provides the following technical scheme:

A separate warehouse order dispatch unit comprising: the positioning data acquisition module is used for: according to the locators placed on the turnover boxes or the trays in the transport vehicle, when the transport vehicle transports the circulating packing box body, planning and recording the route of the transport vehicle according to the real-time records of the locators; the functions of the locator further comprise audible and visual alarm, temperature and humidity display, id identification and theft prevention, and the locator performs data networking interaction with a mobile display terminal of a transport driver; the sound-light alarm, temperature and humidity display, id identification and anti-theft function data in the locator can be displayed in the mobile display of a transportation driver; the tracking record acquisition module is used for: acquiring the coordinate data and the time data passing by the transport vehicle in real time, and corresponding the acquired coordinate data and time data with a standard data table, and splitting the coordinate data and the time data into a multi-dimensional data table after the corresponding is finished; extracting specific data in a multi-dimensional data table, wherein the specific data are real-time coordinate values and real-time values in coordinate data and time data; the method comprises the steps of extracting and creating a real-time task data table according to specific data, converting the format of the real-time task data table into a visual format, and distributing a database order, and further comprises: the data integration and display module is used for: based on the real-time task data table acquired by the tracking record acquisition module, displaying the data value of the real-time task data table in a two-dimensional coordinate graph, and marking a curve in the two-dimensional coordinate graph according to the data change trend of the data value; overlapping the marked curve with the standard curve, and transmitting the data value to a mobile terminal of a transportation driver for display through a positioner when the overlapping area of the marked curve and the standard curve is not in a qualified range; the method comprises the steps that a labeling curve and a standard curve are overlapped to data values in a qualified range to carry out multi-target position configuration, and each target position corresponds to different position numbers; and mapping different numbers corresponding to different target positions, and storing the data according to the mapping result.

Specifically, the coordinate data and the time data of the transport vehicle are acquired in real time through the tracking record acquisition module, convenience for customers to observe transport information is improved, meanwhile, specific data in the multi-dimensional data table is extracted, the real-time task data table is created after the specific data are acquired, the efficiency and the precision of transport information conversion are further improved, the data value of the real-time task data table is marked in a curve mode according to the data integration and display module, and the marked curve is overlapped with the standard curve, so that unqualified data can be detected more intuitively, error correction processing is conducted on the unqualified data in time conveniently, meanwhile, the recognition degree of the data is improved due to the fact that each target position corresponds to different position numbers, and management of the data is facilitated.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A recycling package management system, comprising:

the packaging box body data acquisition unit is used for:

acquiring basic information of the packaging box body, and classifying and storing types according to the basic information, wherein the basic information of the packaging box body comprises the weight, the volume and the model of the packaging box body;

a central database data statistics unit for:

based on the basic information of the packaging box body acquired by the packaging box body data acquisition unit, transmitting the basic information to a central library of the terminal, classifying and managing the basic information data in the central library, and storing the classified data;

the central database data statistics unit further comprises:

the time interval setting module is used for setting a data transmission time interval for transmitting the basic information to a central library of the terminal;

The data transmission quality evaluation module is used for monitoring the data transmission quality of each data transmission time interval in real time and acquiring the comprehensive parameters of the data transmission quality; the data transmission quality comprehensive parameters are obtained through the following formula:

wherein,Qrepresenting the data transmission quality comprehensive parameters;nindicating the number of time intervals that have elapsed;mrepresenting the number of data transmissions completed in each time interval;T _ij represent the firstiIn the first time intervaljThe transmission time length used for transmitting the data;T ₀ representing a theoretical delay upper limit value allowed by transmission;T _pi represent the firstiAverage transmission duration for completing data transmission in each time interval;Q ₀ representing a preset reference parameter value;

the comparison module is used for comparing the data transmission quality comprehensive parameter with a preset comprehensive parameter threshold value to obtain a comparison result;

the channel evaluation and replacement execution module is used for evaluating and replacing a communication channel for currently executing data transmission when the comparison result shows that the data transmission quality comprehensive parameter is lower than a preset comprehensive parameter threshold;

the channel evaluation and replacement execution module comprises:

the operation parameter acquisition module is used for scanning each communication channel for currently executing data transmission operation to acquire the operation parameter of each communication channel when the data transmission quality comprehensive parameter is lower than a preset comprehensive parameter threshold;

The first comparison and replacement module is used for carrying out operation quality evaluation on the corresponding communication channels according to the operation parameters of the communication channels to obtain operation quality evaluation parameters corresponding to each channel; comparing the operation quality evaluation parameter with a preset operation quality evaluation parameter threshold, and replacing a communication channel of which the operation quality evaluation parameter is lower than the preset operation quality evaluation parameter threshold;

the threshold adjustment module is used for adjusting the operation quality evaluation parameter threshold according to the data transmission quality comprehensive parameter to obtain an adjusted parameter threshold when the operation quality evaluation parameter is not lower than the preset operation quality evaluation parameter threshold; the adjusted parameter threshold value is obtained through the following formula:

wherein,R _t representing the adjusted parameter threshold;Rrepresenting a preset operation quality evaluation parameter threshold;

the second comparison and replacement module is used for comparing the operation quality evaluation parameter with a preset adjusted parameter threshold value and replacing a communication channel of which the operation quality evaluation parameter is lower than the adjusted parameter threshold value;

an online packing box order data acquisition unit for:

Based on the classified basic information obtained in the central library data statistics unit, the order information is firstly obtained, the sorting library is selected according to the destination address finally dispatched in the order information after the order information is obtained, and the dispatching cost is subjected to numerical calculation;

the method comprises the steps of selecting a sub-library, judging according to the distance between a final destination address of an order and the sub-library, and selecting the sub-library with the closest destination to the sub-library;

a separate-warehouse order dispatch unit for:

based on the order information acquired by the on-line packing box order data acquisition unit, dispatching the packing box body according to the packing box body of the order information and dispatching requirements;

meanwhile, when the packaging box body is dispatched, dispatch tracking is performed in real time, data are managed according to the record of the dispatch tracking, and finally the managed data are displayed in a form of a table.

2. A recycling package management system according to claim 1, wherein: the package box body data acquisition unit includes:

the basic data acquisition module is used for:

recording basic data of different circulating packing box bodies, wherein the basic data comprise the weight, the volume and the model of the circulating packing box bodies;

The application scope classification module is used for:

based on the basic data of the circulating packing box body acquired in the basic data acquisition module, attribution classification is carried out according to the application range corresponding to the basic data of each circulating packing box body, and when the same circulating packing box body can be applied to a plurality of application ranges, the circulating packing box body applicable to each application range data is available;

a class of memory modules for:

based on the application scope of the circulating packing box body obtained in the application scope classification module, the circulating packing box bodies with different application scopes are stored independently.

3. A recycling package management system according to claim 1, wherein: the central repository data statistics unit comprises:

the central library acquisition module is used for:

based on the basic information data of different circulating packing box bodies in the packing box body data acquisition unit, acquiring the basic information data of different circulating packing box bodies;

the collected data classification module is used for:

based on the basic data acquired from the central library acquisition module, the basic data of different categories are screened and marked as category data to be stored;

The acquisition data storage module is used for:

acquiring a storage area corresponding to the category data to be stored based on the category data to be stored acquired by the acquired data classification module;

and confirming the capacity spaces in different storage areas according to the acquired storage areas, wherein the capacity spaces of the storage areas are the residual capacity spaces in the storage areas, and automatically selecting the storage areas of the corresponding residual capacity spaces according to the capacity of the category data to be stored.

4. A recycling package management system according to claim 3, wherein: the central database data statistics unit further comprises:

a stored data setting module for:

based on the storage completion waiting for storing the category data acquired in the acquisition data storage module, the copy number and the storage perception strategy when the waiting for storing the category data are acquired, wherein the storage perception strategy comprises determining data nodes of a classified data storage area;

a stored data execution module for:

based on the number of the copies of the class data to be stored and the storage perception policy obtained by the storage data setting module, the class data to be stored and the number of the copies are stored in the target storage area, and the operation behavior data of the class data to be stored and the storage information of the number of the copies are recorded.

5. A recycling package management system according to claim 1, wherein: the online packing case order data acquisition unit comprises:

an order data processing module for:

according to the order placed by the customer on the online terminal, processing destination information in order data and information of the circulating packing box body;

the library separation selection module is used for:

selecting a nearest database separating area from the destination information based on the destination information acquired from the order data processing module;

if the nearest sub-warehouse does not have the circulating packing box body in the order data, selecting the address distance of the sub-warehouse area for the second nearest;

an invalid data eliminating module, configured to:

marking data which are not adopted in the data as invalid data based on the data acquired in the database selection module and the order data processing module, and eliminating the invalid data;

an order data processing module comprising:

and the destination data acquisition module is used for acquiring the area range of the destination according to the order information, carrying out area confirmation on the destination area data after acquisition, and confirming the area as target area data.

6. The recycling package management system of claim 5, wherein: the library separation selection module comprises:

A dispatch fee calculation module for:

based on the target area data acquired from the order data processing module, carrying out data correspondence on the target area data and the selected sub-library area data, and confirming a distance interval between the target area data and the selected sub-library area data after the correspondence is completed;

according to the confirmed distance interval, performing simulation calculation on the distance interval through an algorithm simulation database;

the algorithm simulation database is mainly used for carrying out the transportation cost of the circulating packing box body according to the actual mileage of the distance interval and the model of the circulating packing box body;

and after calculating the transportation cost according to the algorithm simulation data, calculating the transportation cost and the use cost of the circulating packing box body, and obtaining the cost of the whole after the calculation is completed.

7. A recycling package management system according to claim 1, wherein: the warehouse-dividing order dispatching unit comprises:

the positioning data acquisition module is used for:

according to the locators placed on the turnover boxes or the trays in the transport vehicle, when the transport vehicle transports the circulating packing box body, planning and recording the route of the transport vehicle according to the real-time records of the locators;

The functions of the locator further comprise audible and visual alarm, temperature and humidity display, id identification and theft prevention, and the locator performs data networking interaction with a mobile display terminal of a transport driver;

the sound-light alarm, temperature and humidity display, id identification and anti-theft function data in the locator can be displayed in the mobile display of a transportation driver;

the tracking record acquisition module is used for:

acquiring the coordinate data and the time data passing by the transport vehicle in real time, and corresponding the acquired coordinate data and time data with a standard data table, and splitting the coordinate data and the time data into a multi-dimensional data table after the corresponding is finished;

extracting specific data in a multi-dimensional data table, wherein the specific data are real-time coordinate values and real-time values in coordinate data and time data;

and the real-time task data table is created according to the specific data extraction, and the real-time task data table is subjected to format conversion and is converted into a visual format.

8. The recycling package management system of claim 7, wherein: the separate warehouse order dispatch unit further comprises:

the data integration and display module is used for:

based on the real-time task data table acquired by the tracking record acquisition module, displaying the data value of the real-time task data table in a two-dimensional coordinate graph, and marking a curve in the two-dimensional coordinate graph according to the data change trend of the data value;

Overlapping the marked curve with the standard curve, and transmitting the data value to a mobile terminal of a transportation driver for display through a positioner when the overlapping area of the marked curve and the standard curve is not in a qualified range;

the method comprises the steps that a labeling curve and a standard curve are overlapped to data values in a qualified range to carry out multi-target position configuration, and each target position corresponds to different position numbers;

and mapping different numbers corresponding to different target positions, and storing the data according to the mapping result.